PHF - Communication Function(Ethernet) (TN5A0072b-E)

PHF - Communication Function(Ethernet) (TN5A0072b-E)
Instruction Manual
PAPERLESS RECORDER
COMMUNICATION
FUNCTION
(Ethernet)
TYPE: PHF
INP-TN5A0072b-E
Note: MODBUS® is the registered trade mark of AEG Schneider Automaion International.
NOTICE
1. Exemption items from responsibility
The contents of this document may be changed in the future without prior notice.
We paid the utmost care for the accuracy of the contents. However, we are not liable for direct and
indirect damages resulting from incorrect descriptions, omission of information, and use of
information in this document.
CONTENTS
1.
COMMUNICATION FUNCTIONS ·································································································· 1
1.1 General············································································································································ 1
2.
2.1
2.2
2.3
2.4
2.5
ETHERNET COMMUNICATION FUNCTIONS ············································································· 2
LAN port specification···················································································································· 2
Connection to the terminal ·············································································································· 2
Connection ······································································································································ 2
Setting Ethernet communicating conditions ···················································································· 3
Ethernet communicating conditions setting operation ····································································· 3
3.1
3.2
3.3
3.4
FTP SERVER FUNCTION················································································································ 4
Description of FTP server function ································································································· 4
Setting FTP server function············································································································· 6
FTP server function setting operation······························································································ 6
FTP server operation ······················································································································· 7
4.1
4.2
4.3
4.4
4.5
WEB SERVER FUNCTION·············································································································· 8
Description of web server function·································································································· 8
Setting web server function ············································································································· 8
Web server function setting operation ····························································································· 8
Web server operation ······················································································································ 9
Web monitor screen ························································································································ 9
5.1
5.2
5.3
5.4
5.5
E-MAIL SEND FUNCTION ··········································································································· 11
Description of E-mail send function ······························································································ 11
Setting E-mail function ················································································································· 11
E-mail function setting operation ·································································································· 12
E-mail send test operation ············································································································· 15
E-mail send contents ····················································································································· 15
3.
4.
5.
6.
MODBUS TCP/IP FUNCTION······································································································· 16
6.1 Description of MODBUS TCP/IP function ··················································································· 16
6.2 Setting MODBUS TCP/IP function······························································································· 16
6.3 MODBUS TCP/IP function setting operation················································································ 16
7.
MODBUS TCP/IP COMMUNICATION PROTOCOL···································································· 17
General·········································································································································· 17
Composition of Message ··············································································································· 18
Response of Slave Station ············································································································· 19
Function Code······························································································································· 20
FIX Processing (Cautions in data write) ························································································ 21
7.1
7.2
7.3
7.4
7.5
8.
DETAILS OF MESSAGE················································································································ 22
8.1 Read-out of Word Data [ Function code : 03H ]············································································· 22
8.2 Read-out of Read-out Only Word Data [ Function code : 04H ] ·························································· 24
8.3 Write-in of Continuous Word Data [ Function code : 10H ] ··························································· 26
-i-
9.
ADDRESS MAP AND DATA FORMAT ·························································································28
9.1 Data Format···································································································································28
9.2 Address Map··································································································································29
9.3 Additional Explanation of Address Map ························································································37
10.
TROUBLESHOOTING ···················································································································43
- ii -
1. COMMUNICATION FUNCTIONS
1.1 General
•
This equipment provides a communication function (optional) using an Ethernet interface.
•
The following functions are available as Ethernet communication functions.
(1) FTP server function
Permits take-out of files from the compact flash of the paperless recorder, using personal computer's
browser (Internet Explorer) or DOS prompt.
(2) Web server function
Permits check of measured values and event information recorded in the paperless recorder, using personal
computer's browser (Internet Explorer).
(3) E-mail send function
Permits E-mail transmission in a fixed period and also on occurrence of an alarm.
(4) MODBUS TCP/IP function
Permits exchange of data with host computer, programmable controller, graphic display panel, etc. by
MODBUS TCP/IP communication.
-1-
2. ETHERNET COMMUNICATION
FUNCTIONS
•
Setting of IP address, etc. is essential for connection of a paperless recorder to Ethernet.
with the system manager of your company.
2.1 LAN port specification
Item
Transmission rate
Transmission method
Maximum network length or maximum node interval
Maximum segment length
Cable for connection
Protocol
Specification 10BASE-T
10 Mbps
Base band
500 m (cascade in 4 stages)
100 m (between node and hub)
UTP (twisted-pair cable without shield) 22-26 AWG
TCP/IP
2.2 Connection to the terminal
Ethernet terminal
2.3 Connection
Ethernet
HUB
10 BASE-T
straight cable
Node to hub distance:
Maximum number of nodes per network:
Recommended cable:
Up to 100 m
100 nodes
10 BASE-T twisted-pair cable, Category 5
-2-
Be sure to consult
2.4 Setting Ethernet communicating conditions
•
Set IP address, subnet mask and default gateway for connection of the paperless recorder to Ethernet.
with the system manager of your company for the values to be set.)
•
Communicating conditions setting items
Item
IP address
Sugnet mask
Default gateway
Value at delivery
192.168. 1. 1
255.255.255. 0
0. 0. 0. 0
Setting range
0 to 255 for each digit
0 to 255 for each digit
0 to 255 for each digit
Remarks
Turn ON the power again after
setting change.
2.5 Ethernet communicating conditions setting operation
(1) Select “Ethernet setting” from the “Parameter setting” menu screen, and press the [ENT] key.
(2) Move the cursor to “IP address”, and set an IP address.
(3) Move the cursor to “Subnet mask”, and set a subnet mask.
(4) Move the cursor to “Default gateway”, and set a default gateway.
-3-
(Consult
3. FTP SERVER FUNCTION
3.1 Description of FTP server function
•
This function permits take-out of record files from the compact flash of the recorder, using browser or DOS
prompt.
•
This function permits take-out of record data from the internal memory of the recorder, using browzer or DOS
prompt.
•
This function permits deletion of record files from the compact flash of the recorder, using browser or DOS
prompt. (Users of Administrator, Engineer and Operator level can be deleted.)
•
This function permits changing names of record files recorded on the compact flash of the recorder, using
browser or DOS prompt. (Users of Administrator, Engineer and Operator level can be changed.)
•
Use Internet Explorer made by Microsoft as the personal computer's browser.
•
Up to eight (8) user names and passwords may be set for those who are permitted to log in the FTP server.
•
If the FTP server access verify function is OFF, log-in to the FTP server is permitted with common user name
“ftp” (without password).
•
When log-in or log-off to/from the FTP server is executed, the subject information is displayed on the Ethernet
communication log screen.
•
The FTP server permits log-in by one user only at a time.
•
Record data in the internal memory of recorder becomes binary format regardless of “Record data format”
setting in the main body.
•
The folder configuration of FTP server is shown on the next page.
[Caution]
•
The communication automatically disconnects, if no FTP communication request is made for 10 minutes.
•
The display motion of the paperless recorder may slow down when taking out a file of large size.
•
While the compact flash of the paperless recorder is accessed by FTP communication, do not take out the
compact flash.
Furthermore, when the FTP server function is used, inhibit access to the compact flash in the "Memory card
abstract" screen, before taking out the compact flash.
•
Do not delete or change the name of a file while the file is being recorded.
•
Attributes of all files in the FTP server are displayed as read-only as hidden files.
•
If the Ethernet communication is shut down while the FTP server is in log-in status, log-in is not permitted
until the communication is automatically disconnected ten (10) minutes later.
-4-
Folder configuration of FTP server
Compact flash card
Root
Folder
S000000
S******.FDT
Record file
A******.FDT
Event file
Folder name
PARAM
PA00000.PHF
Setting value
Internal memory (The name of record data in the internal memory is fixed.)
MEMORY
SI00000.FDT, SI00001.FDT, SI00002.FDT, SI00003.FDT
Record data of Internal memory (4 pieces max.)
AI00000.FDT, AI00001.FDT, AI00002.FDT, AI00003.FDT
Event data of internal memory (4 pieces max.)
-5-
3.2 Setting FTP server function
•
Execute setting of FTP server function and of access verification, for using the FTP server function.
Furthermore, set names and passwords of those who use the FTP server function.
•
FTP server function setting items
Item
FTP server function
FTP access control
•
Value at delivery
Setting range
ON, OFF
ON, OFF
OFF
OFF
Remarks
Turn ON the power again
after setting is changed.
User name setting items
Item
User 1 to 8 name
User 1 to 8 password
User 1 to 8 level
Value at delivery
(Blank)
(Blank)
Administrator
Setting range
Up to 16 letters may be set.
Up to 8 letters may be set.
Administrator, Engineer,
Operator, Guest
Remarks
3.3 FTP server function setting operation
• FTP server function setting
(1) Execute setting of the FTP server function first of all. Select “Ethernet setting” from the “Parameter setting”
menu screen, and press the [ENT] key.
(2) Move the cursor to “FTP server function”, and select FTP server function ON/OFF. The FTP server function
can be used, if ON is set.
(3) Move the cursor to “FTP access control”, and select FTP server verify function ON/OFF. No password is
required at the time of log-in to the FTP server, if OFF is set.
-6-
• User name setting
(1) Set user names and passwords.
press the [ENT] key.
Select “User account setting” from the “Parameter setting” menu screen, and
(2) Move the cursor to the user to be set, and press the [ENT] key.
(3) Set a user name using up to 16 letters.
(4) Set a password using up to 8 letters.
(5) Select a user access level out of “Administrator”, “Engineer”, “Operator” and “Guest”.
If “Guest” was selected, file deletion is not permitted, although log-in to the FTP server is permitted.
3.4 FTP server operation
•
(1)
(2)
(3)
(4)
(5)
(6)
(7)
Connect the FTP server to the paperless recorder from the browser, by performing operation in the sequence
indicated below.
Start Internet Explorer from a personal computer on Ethernet.
Enter the IP address of the paperless recorder in the address column in the following manner.
FTP: //(recorder's IP address)
Enter FTP: //192.168.1.2 in case the IP address of the paperless recorder is 192.168.1.2.
The screen that requests entry of user name and password appears. Enter a user name and password.
“S000000” and “MEMORY” directories are displayed on the browser.
Select “S000000” folder to display the record file in the compact flash.
Select “MEMORY” folder to display the record data in the internal memory.
The recorded record file is displayed on the browser.
Select the file to be fetched, and copy it into an arbitrary folder in PC.
When a compact flash is selected, the record file can be deleted.
Select the file to be deleted, and delete it.
-7-
4. WEB SERVER FUNCTION
4.1 Description of web server function
•
The web server function permits monitoring of measured values and event log in the paperless recorder using
personal computer's browser.
•
Use Internet Explorer made by Microsoft as the personal computer's browser.
[Caution] • Monitoring from cell phone's browser is not permitted. If connection to recorder's web server is
made from a cell phone, the recorder may halt in the worst case. Do not attempt to monitor data in
the paperless recorder from a cell phone.
• An error may arise depending on the circumstances of the communication, as the period of update of
the browser is 10 seconds.
The screen of the PC is displayed again, if the update button of the browser is pressed in such a case.
• The characters may not be displayed normally depending on the setting of the browser.
4.2 Setting web server function
•
Set the web server function for permitting its use.
•
Set items
Item
Web server function
Value at delivery
OFF
Setting range
ON, OFF
Remarks
Turn ON the power again after setting is changed.
4.3 Web server function setting operation
(1) Select “Ethernet setting” from the “Parameter setting” menu screen, and press the [ENT] key.
(2) Move the cursor to “Web server function”, and select web server function ON/OFF.
function is permitted if ON is set.
-8-
Use of the web server
4.4 Web server operation
•
Connect the web server to the paperless recorder from the personal computer's browser, by performing
operation in the sequence indicated below.
(1) Start Internet Explorer from a personal computer on Ethernet.
(2) Enter the IP address of the paperless recorder in the address column in the following manner.
http: //(recorder's IP address)
Enter http: //192.168.1.2 in case the IP address of the paperless recorder is 192.168.1.2.
(3) The paperless recorder monitor screen is displayed on the browser.
4.5 Web monitor screen
(1) Web monitor menu screen
• Connect to the web server of the paperless recorder, and the following screen appears.
-9-
(2) PV display screen
(3) Event Summary display screen
- 10 -
5. E-MAIL SEND FUNCTION
5.1 Description of E-mail send function
•
E-mails can be transmitted from the paperless recorder.
•
E-mails can be transmitted in any of the states indicated below.
(1) An alarm arose or was cancelled.
(2) An external input (DI) was ON or OFF.
(3) Any error occurred to the main unit. (Battery end or compact flash full occurred, if an alarm of an
arbitrary channel arose.)
(4) Once every fixed period (The period may be selected out of 1 hour, 2 hours, 3 hours, 4 hours, 6 hours, 12
hours and 24 hours.)
•
Up to eight (8) addresses can be registered for transmission of E-mails.
•
Measured values of each channel can be attached to each E-mail.
(Receipt of E-mails is not permitted.)
• E-mail transmission test can be conducted in the E-mail trigger setting screen.
[Caution]
• Up to sixteen (16) E-mail send requests can be transmitted continuously, but not more than 16.
No transmission will be implemented if the number of E-mail send requests exceeds 16. Therefore, make
setting so that E-mail send requests will not occur continuously.
•
For sending E-mails, it is necessary to register the paperless recorder in the mail server.
Consult with the system manager of your company, for registration to the mail server.
•
If E-mail send fails, the E-mail send requests are cancelled.
•
Even if E-mail is sent, there is a possibility where the E-mail does not reach the destination because of
incorrect address, etc.
•
If two or more E-mail addresses are set as send destinations in the E-mail trigger setting, the error message
is not recorded on the communication log unless all the attempts to send E-mails fail.
5.2 Setting E-mail function
•
Set E-mail send/receive addresses and E-mail send trigger, for permitting use of the E-mail function.
(Consult with the system manager of your company, for the values to be set.)
•
E-mail function set items
Item
E-mail function
•
Value at delivery
OFF
Setting range
ON, OFF
Remarks
Turn ON the power again after setting
change.
E-mail send/receive address set items
Item
SMPT IP address
Sender’s mail address
Sebder’s mail name
Receiver’s mail addree
1 to 8
Value at delivery
0. 0. 0. 0
(Blank)
(Blank)
(Blank)
Setting range
0 to 255 for each digit
Up to 64 letters may be set.
Up to 32 letters may be set.
Up to 64 letters may be set.
- 11 -
Remarks
•
E-mail send trigger set items
Item
Trigger timing
Value at delivery
None
DI No.
Alarm Channel
Alarm No.
Warning type
DI 1
Channel 1
1
Alarm ON (All ch)
Time cycle
Time base (hour)
Title
Text 1
Text 2
PV value affixation
Receiver’s add No.
1 hour
0
(Blank)
(Blank)
(Blank)
OFF
None
Setting range
None, DI ON, DI OFF,
Alarm ON, Alarm OFF,
Warning, Timer cycle
DI 1 to 5
Channel 1 to 6
1 to 4
Alarm ON (All ch),
All warning, No battery,
CF full
1, 2, 3, 4, 6, 12 hour, 1 day
0 to 23
Up to 32 letters may be set.
Up to 32 letters may be set.
Up to 32 letters may be set.
ON, OFF
Receiver’s address
No. 1, 2, 3, 4, 5, 6, 7, 8
Remarks
Trigger timing = DI ON, DI OFF
Trigger timing = Alarm ON, OFF
Trigger timing = Warning
Trigger timing = Timer cycle
5.3 E-mail function setting operation
• Setting E-mail function
(1) Set the E-mail function first of all.
press the [ENT] key.
Select “Ethernet setting” from the “Parameter setting” menu screen, and
(2) Move the cursor to “E-mail function”, and select E-mail function ON/OFF.
used, if ON is set.
- 12 -
The E-mail send function can be
• Setting E-mail send/receive addresses
(1) Select “E-mail setting” from the “Parameter setting” menu screen, and press the [ENT] key.
(2)
(3)
(4)
(5)
Move the cursor to “SMTP IP address”, and set the IP address of the mail server.
Move the cursor to “Sender’s mail Add”, and set the sender's mail address.
Move the cursor to “Sender’s mail Name”, and set the sender's name.
Move the cursor to “Receiver’s mail Add”, and set up to eight (8) receivers' mail addresses.
• Setting E-mail send trigger
(1) Select “E-mail trigger setting” from the “Parameter setting” menu screen, and press the [ENT] key.
- 13 -
(2) Up to ten (10) patterns of E-mail send timing may be set.
Select a send timing to be selected, and press the [ENT] key.
(3) Move the cursor to “Trigger timing”, and select an E-mail send timing.
Select one of the followings as an E-mail send timing.
When a timing is selected, particulars set items are displayed for each timing type. Set these items also.
1) DI ON, DI OFF
E-mails can be sent by DI ON/OFF.
When DI ON/OFF timing is selected, set items for the DI No. to be used are displayed. Set the DI No. to be
used for judgment.
2) Alarm ON, Alarm OFF
E-mails can be sent by the alarm occur/cancel information.
When alarm ON/OFF timing is selected, set items for the channel No. and alarm No. to be used are displayed.
Set the channel No. and alarm No. to be used for judgment.
3) Warning
E-mails can be sent by warning occur information.
When warning is selected, set items for the warning information to be used are displayed. Set the warning
information to be used for judgment.
- 14 -
4) Timer cycle
E-mails can be sent in a fixed period.
When timer cycle is selected, set items for the send period and reference time are displayed. Set the Email send period and reference time.
(4) Move the cursor to “Title”, and set the E-mail title.
(5) Move the cursor to “Text 1”, “Text 2”, and set a comment of two (2) lines to be described in the E-mail.
(6) Move the cursor to “PV value affixation”, and set whether to indicate measured values of all the channels in the
E-mail. All the channels can be indicated , ON is set.
(7) Move the cursor to “Receiver’s add No.”, and select an address No. to receive the E-mail.
The E-mail is sent to each address No. for which ON was set.
(8) An E-mail send test can be conducted by moving the cursor to “Mail sent test” and by then pressing the [ENT]
key.
5.4 E-mail send test operation
•
Conduct an E-mail send test with the paperless recorder, by performing operation in the sequence indicated
below.
(1) Select “E-mail trigger setting” from the “Parameter setting” menu screen, and press the [ENT] key.
(2) Select an E-mail trigger setting No. to conduct a send test, and then press the [ENT] key.
(3) Move the cursor to “Mail send test”, and then press the [ENT] key.
5.5 E-mail send contents
•
The paperless recorder sends an E-mail with following contents.
Sender's mail name
Mail title
Mail trigger timing & time
2002/ 4/ 3 20:00:00 Operational report
1hour
PVON
CH1 =
CH2 =
CH3 =
CH4 =
CH5 =
CH6 =
Mail text 1
Mail text 2
PV value
862.6mH
862.5mm/s
862.5mV
862.5mV
6.270V
6.270V
- 15 -
6. MODBUS TCP/IP FUNCTION
6.1 Description of MODBUS TCP/IP function
•
The MODBUS TCP/IP protocol permits use of MODBUS protocol (MODBUS RTU), on an Ethernet interface.
•
MODBUS TCP/IP communication is executed through port 502.
•
The MODBUS TCP/IP function permits read/write of set values from/to the paperless recorder.
6.2 Setting MODBUS TCP/IP function
•
Make MODBUS TCP/IP function setting to permit the use of MODBUS TCP/IP function.
•
Specify station No. to evaluate the device with which communication is to be carried out.
•
Set items
Item
MODBUS TCP/IP
MODBUS Station NO.
Factory default
OFF
1
Setting range
ON, OFF
0 to 255
Remarks
Turn on the power after the setting is changed.
Communication is not carried out if 0 is selected.
6.3 MODBUS TCP/IP function setting operation
(1) Select “Ethernet setting” from the “Parameter setting” menu screen, and press the [ENT] key.
(2) Move the cursor to “MODBUS TCP/IP”, and select MODBUS TCP/IP function ON/OFF.
TCP/IP function can be used, if ON is set.
(3) Select “Basic setting” on the Parameter setting” menu screen, and press the [ENT] key.
(4) Move the cursor to “MODBUS Station No.” and select a desired station No.
- 16 -
The MODBUS
7. MODBUS TCP/IP COMMUNICATION
PROTOCOL
7.1 General
The communication system by the MODBUS TCP/IP protocol is that the communication is always started from the
master station and a slave station responds to the received message.
Transmission procedures is as shown below.
1) The master station sends a command message to a slave station.
2) The slave station checks that the station No. in the received message matches with the own station No. or
not.
3) If matched, the slave station executes the command and sends back the response message.
4) If mismatched, the slave station leaves the command message and wait for the next command message.
a)
In case when the station No. in the received command message matches with the own slave station No.
Master to slave
Command message
Slave to master
b)
Response message
Data on
the line
In case when the station No. in the received command message mismatches with the own slave station
No.
Master to slave
Command message
(Not respond)
Slave to master
5)
Data on
the line
To assure safety, provide a structure where the response message is checked and retry is made three (3)
times or more if no response is made or an error occurs.
The master station can individually communicate with any one of slave stations connected on the same line upon
setting the station No. in the command message.
- 17 -
7.2 Composition of Message
Command message and response message consist of 6 fields ; Transaction Identifier, Protocol Identifier,
Length Unit Identifier, Station No., Function code and Data code. And these are send in this order.
Transaction Identifier (2 bytes)
Protocol Identifier (2 bytes)
Length Unit Identifier ( 2 bytes)
Station No. ( 1 byte )
Function code ( 1 byte)
Data ( 2 to 133 bytes)
Fig.7-1
Composition of message
In the following, each field is explained.
(1) Transaction Identifier
Identification of a MODBUS Request / Response transaction.
(2) Protocol Identifier
Set 0 for MODBUS TCP/IP.
(3) Length Unit Identifier
Number of bytes of data part.
(4) Station No.
Station No. is the number specifiing a slave station. The command message is received and operated only by
the slave station whose station No. matches with the No. set in the parameter “ MODBUS Station No.”
For details of setting the parameter “ MODBUS Station No.”, refer to chapter 6.
(5) Function code
This is a code to designate the function executed at a slave station.
For details, refer to section 7.4.
(6) Data
Data are the data required for executing function codes. The composition of data varies with function codes.
For details, refer to chapter 8.
A register number is assigned to each data in the recorder. For reading/writing
the data by communication, designate the register number.
Note that the register number transmitted on message is expressed as its relative address.
The relative address is calculated by the following expression.
Relative address




= The lower 4 digits of the register number  - 1
For example, when the resister number designated by a function code is 40003,
Relative address = (lower 4 digits of 40003) - 1
= 0002
is used on the message.
- 18 -
7.3 Response of Slave Station
(1) Response for normal command
To a relevant message, the slave station creates and sends back a response message which corresponds to the
command message. The composition of message in this case is the same as in section 7.2.
Contents of the data field depend on the function code. For details, refer to Chapter 8.
(2) Response for abnormal command
If contents of a command message have an abnormality (for example, non-actual function code is designated)
other than transmission error, the slave station does not execute that command but creates and sends back a
response message at error detection.
The composition of response message at error detection is as shown in Fig.7-2. The value used for function
code field is function code of command message plus 80H.
Table 7-1 gives error codes.
Transaction Identifier
Protocol Identifier
Length Unit Identifier
Station No.
Function code + 80H
Error code
Fig.7-2
Response message at error detection
Table 7-1
Error code
01H
Contents
Illegal function code
02H
Illegal data address
03H
Illegal data number
04H
Device error
Error Code
Description
Non-actual function code is designated.
Check for the function code.
A relative address of a resister number to which the
designated function code can not be used.
Because the designation of number is too much, the area
where resister number do not exist is designated.
Communication with slave equipment failed. Check the
communication specification for the slave equipment.
(3) No response
Under any of the following items, the slave station takes no action of the command message and sends back no
response.
•
A station number transmitted in the command message differs from the station number specified to the
slave station.
•
A transmission error is detected.
•
Station No. of a slave station is set to 0.
- 19 -
7.4 Function Code
According to MODBUS protocol, register numbers are assigned by function codes.
Each function code acts on specific register number.
This correspondence is shown in Table 7-2, and the message length by function is shown in Table 7-3.
Table 7-2
No.
03H
04H
10H
Correspondence between function codes and objective address
Function code
Function
Object
Read-out
Holding register
(continuously)
Read-out
Input register
(continuously)
Write-in
Holding register
(continuously)
Table 7-3
Function
code
03H
04H
10H
Resister No.
Contents
No.
4xxxx
Read-out/write-in
word data
3xxxx
Read-out
word data
4xxxx
Read-out/write-in
word data
Function code and message length
Contents
Read-out of word data
Read-out of word data
(read-out only)
Write-in of continuous word data
[Unit: byte]
Response message
Command message
Number of
designatable
Minimum Maximum Minimum Maximum
data
64 words
12
12
11
137
64 words
12
12
11
137
64 words
15
141
12
12
- 20 -
7.5 FIX Processing (Cautions in data write)
The instrument is provided inside with a non-volatile memory (F-ROM) for holding the setting parameters.
Data written in the non-volatile memory is not lost even if turning off the power.
To hold parameters that were written in the internal memory via communication after turning off the power, the FIX
process is effective. It allows parameters to be written in nonvolatile memory.
Fig.7-3 shows the FIX procedure.
Cautions:
• Write in the non-volatile memory takes approximately 2 seconds.
•
While writing, do not turn off the power of the PHF. Otherwise, the data in the non-volatile memory will be
destroyed, whereby the PHF could not be used any longer.
•
Don’t change parameters on the front panel when performing the FIX procedure, or memory error may result.
•
The non-volatile memory (F-ROM) is a device where the number of write-in times is limited. The
guaranteed number of write-in times of the non-volatile memory used on the instrument is 100,000 minimum.
Therefore, limit the times of change of parameter setting to absolute minimum. Refrain from carrying out
the FIX processing periodically for example or while such is not absolutely required.
Start FIX
Read the FIX data
with function code
relative address
No
: 03H
: 1387H
FIX=0?
Yes
Write ‘1’ into FIX data
with function code
relative address
: 10H
: 1387H
Read the FIX data
with function code
relative address
: 03H
: 1387H
No
FIX=0?
Yes
End FIX
Fig.7-3
FIX procedure
- 21 -
8. DETAILS OF MESSAGE
8.1 Read-out of Word Data [ Function code : 03H ]
Function code
Max. word number read-out
in one message
Relative data address
Register No.
Kind of data
03H
64 words
0000H to 1386H
1387H to 157BH
157CH to 1B57H
40001 to 44999
45000 to 45500
45501 to 47000
Storage enable data
Storage enable data
Storage enable data
(1) Message composition
Command message composition(byte)
Upper
Transaction
Identifier
Lower
Protocol Identifier
Upper
Lower
Length Unit
Upper
Identifier
Lower
Station No.
Function code
Read-out start No. Upper
(relative address)
Lower
Read-out word
Upper

1 to 64

number
Lower
Response message composition(byte)
Upper
Transaction
Identifier
Lower
Protocol Identifier Upper
Lower
Upper
Length Unit
Identifier
Lower
Station No.
Function code
Read-out byte number
Read-out word number×2
Contents of the
Upper
first word data
Lower
Contents of the
Upper
next word data
Lower
~
~
Contents of the
Upper
last word data
Lower
* Arrangement of read-out word data
MSB
LSB
Upper byte of contents of the first word data
Lower byte of contents of the first word data
Upper byte of contents of the next word data
Lower byte of contents of the next word data
~
~
Upper byte of contents of the last word data
Lower byte of contents of the last word data
(2) Function explanations
Word data of continuous word numbers from the read-out start No. can be read. Read-out word data are
transmitted from the slave station in the order of upper and lower bytes.
- 22 -
(3) Message transmission (example)
Reading range start and range end in Channel 1 from No. 2 station is shown below.
Relative address of range start in Channel 1: 001BH (Register No.40028), Data number: 02H
Command message composition (byte)
Transaction
Upper 00H
Identifier
Lower 00H
Protocol Identifier
Upper 00H
Lower 00H
Length Unit
Upper 00H
Identifier
Lower 06H
Station No.
02H
Function code
03H
Read-out start No. Upper 00H
(relative address)
Lower 1BH
Read-out word
Upper 00H
number
Lower 02H
* Meaning of data to be read
Channel 1 Range start
(contents of the first word data)
Channel 1 Range end
(contents of the next word data)
Response message composition (byte)
Transaction
Upper
00H
Identifier
Lower
00H
Protocol Identifier
Upper
00H
Lower
00H
Length Unit
Upper
00H
Identifier
Lower
07H
Station No.
02H
Function code
03H
Read-out byte
04H
number
Contents of the
Upper
00H
first word data
Lower
00H
Contents of the
Upper
0FH
next word data
Lower
A0H
00 00H = 0
0F A0H = 4000
Where the unit is °C with decimal point position set at 1,
Channel 1 Range start = 0.0°C
Channel 1 Range end = 400.0°C
Point
For “Point” decimal point, refer to Section 9.1.
- 23 -
8.2 Read-out of Read-out Only Word Data [ Function code : 04H ]
Function code
04H
Max. word number readout
in one message
64 words
Relative data address
Register No.
0000H to 07CFH
30001 to 32000
(1) Message composition
Command message composition(byte)
Upper
Transaction
Identifier
Lower
Protocol Identifier
Upper
Lower
Length Unit
Upper
Identifier
Lower
Station No.
Function code
Read-out start No. Upper
(relative address)
Lower
Read-out word
Upper

1 to 64

number
Lower
Response message composition(byte)
Upper
Transaction
Identifier
Lower
Protocol Identifier Upper
Lower
Upper
Length Unit
Identifier
Lower
Station No.
Function code
Read-out byte number
Read-out word number×2
Contents of the
Upper
first word data
Lower
Contents of the
Upper
next word data
Lower
~
~
Contents of the
Upper
last word data
Lower
* Arrangement of read-out word data
MSB
LSB
Upper byte of contents of the first word data
Lower byte of contents of the first word data
Upper byte of contents of the next word data
Lower byte of contents of the next word data
~
~
Upper byte of contents of the last word data
Lower byte of contents of the last word data
(2) Function explanations
Word data of continuous word numbers from the read-out start No. can be read. Read-out word data are
transmitted from the slave station in the order of upper and lower bytes.
- 24 -
(3) Message transmission (example)
Reading range start and range end in Channel 2 from No. 1 station is shown below.
Relative address of measured value in Channel 2: 0065H (Register No.30102), Data number: 01H
Command message composition (byte)
Transaction
Upper 00H
Identifier
Lower 00H
Protocol Identifier
Upper 00H
Lower 00H
Length Unit
Upper 00H
Identifier
Lower 06H
Station No.
01H
Function code
04H
Read-out start No. Upper 00H
(relative address)
Lower 65H
Read-out word
Upper 00H
number
Lower 01H
* Meaning of data to be read
Channel 2 measured value
(contents of the first word data)
Response message composition (byte)
Transaction
Upper
00H
Identifier
Lower
00H
Protocol Identifier
Upper
00H
Lower
00H
Length Unit
Upper
00H
Identifier
Lower
05H
Station No.
01H
Function code
04H
Read-out byte
02H
number
Contents of the
Upper
01H
first word data
Lower
4FH
01 4FH = 335
Where the unit is °C with decimal point position set at 1,
Channel 2 Measured value = 33.5°C
Point
For “Point” decimal point, refer to Section 9.1.
- 25 -
8.3 Write-in of Continuous Word Data [ Function code : 10H ]
Function code
Max. word number read-out
in one message
Relative data address
Register No.
Kind of data
10H
64 words
0000H to 1386H
1387H to 157BH
157CH to 1B57H
40001 to 44999
45000 to 45500
45501 to 47000
Storage enable data
Storage diable data
Storage enable data
(1) Message composition
Command message composition(byte)
Transaction
Upper
Lower
Identifier
Protocol Identifier
Upper
Lower
Length Unit Identifier Upper
Lower
Station No.
Function code
Write-in start No.
Upper
(relative address)
Lower
Write-in word
Upper

1 to 64

number
Lower
Write-in byte number
Write-in word
First write-in
Upper
number×2
word data
Lower
Next write-in
Upper
word data
Lower
~
~
Last write-in
Upper
word data
Lower
Response message composition(byte)
Transaction Identifier
Upper
Lower
Protocol Identifier
Length Unit Identifier
Station No.
Function code
Write-in start No.
(relative address)
Write-in word
number
Upper
Lower
Upper
Lower
Upper
Lower
Upper
Lower
* Arrangement of read-out word data
MSB
LSB
Upper byte of contents of the first word data
Lower byte of contents of the first word data
Upper byte of contents of the next word data
Lower byte of contents of the next word data
~
Upper byte of contents of the last word data
Lower byte of contents of the last word data
~
(2) Function explanations
Word data of continuous word number is written from write-in start address. Write-in word data are transmitted
from master station in the order of upper and lower bytes.
- 26 -
(3) Message transmission (example)
Writing Subtract channel = channel 2, PV shift = 20.0℃, and PV gain = 110.0% in
Channel 1 of No. 1 station is shown below.
Subtract channel = 0002H ( = 2D : channel 2)
PV shift = 00C8H ( = 200D )
Input filter = 044CH ( = 1100D )
Relative address of Subtract channel in Channel 1: 0014H(Register No.40021), Data number: 03H
Command message composition (byte)
Transaction Identifier
Upper 00H
Lower 00H
Protocol Identifier
Upper 00H
Lower 00H
Length Unit Identifier
Upper 00H
Lower 0DH
Station No.
01H
Function code
10H
Write-in start No.
Upper 00H
(relative address)
Lower 14H
Write-in word number
Upper 00H
Lower 03H
Write-in byte number
06H
First write-in
Upper 00H
word data
Lower 02H
Next write-in
Upper 00H
word data
Lower C8H
Last write-in
Upper 04H
word data
Lower 4CH
Point
Caution
Response message composition (byte)
Transaction Identifier Upper
00H
Lower
00H
Protocol Identifier
Upper
00H
Lower
00H
Length Unit Identifier
Upper
00H
Lower
06H
Station No.
01H
Function code
10H
Write-in start No.
Upper
00H
(relative address)
Lower
14H
Write-in word number Upper
00H
Lower
03H
Since the transmission data can not include a decimal point, data of 110.0 is
transmitted as "1100".
For transmission format of each data, refer to the address map(Chapter 9).
If the write-in command message is sent to any slave station during the FIX
process, response is not returned from it.
- 27 -
9. ADDRESS MAP AND DATA FORMAT
9.1 Data Format
9.1.1 Transmission data format
Transmitted data is “numeric value” and not “ASCII code”.
9.1.2 Control of decimal point
A decimal point is not included on the transmission data.
Align decimal point for data that have decimal point (decimal point is eliminated in transmission, and added in
receiving).
9.1.3 Data with input error
When input error (Over, Under, Burnout or Error) occurs in display data, read data from measured values are as
follows.
Display data
Over
Under
Bunout
Error
Read data
32767
-32767
-32768
-32768
Detection of input error during communication can be performed at address 30131 = Channel status.
9.1.4 Range of write-in data
When data is written in each parameter, the write-in data should be kept within the setting range. PHF accepts the
write-in data beyond the range. However, be careful since the PHF performance will not be guaranteed.
- 28 -
9.2 Address Map
For detailed contents about individual parameter function or setting range, refer to the operation manual.
Data type Long: long data The data of this address is manipulated in unit of word. 1 data/2 address
Word: word data The data of this address is manipulated in unit of word. 1 data/1 address
Byte: byte data The data of this address is manipulated in unit of byte. A maximum of 2 data/1 address
Bit: Bit data The data of this address is manipulated in unit of bit. A maximum of 16 data/1 address
Word data [read-out / write-in] : Function code [03H, 10H]
Register
No.
4XXXX
40001
40002
40003
40004
40005
40006
40007
40008
40009
40010
40011
40012
40013
40014
40015
40016
40017
40018
40019
40020
40021
40022
40023
40024
40025
40026
40027
40028
40029
40030
to
40065
to
40129
to
40193
to
40257
to
40321
to
40385
to
41921
41922
41923
41924
41925
41926
Data
type
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Memory contents
Tag 1
Tag 2
Read-out data / Write-in data setting range
1st, 2nd characters
3rd, 4th characters
5th, 6th characters
7th, 8th characters
1st, 2nd characters
3rd, 4th characters
5th, 6th characters
7th, 8th characters
Set Tag 1 (8 characters) by the ASCII code.
Set Tag 2 (8 characters) by the ASCII code.
Reserve
Input type
Input filter
Unit
Scaling
Masuring start
Channel 1
Masuring end
setting
Engineering start
(64
Engineering end
words)
Decimal point
Square rooter
0 to 33 ( Please refer to Table 9-1)
0 to 900 (0 to 900 sec)
0 to 167 ( Please refer to Table 9-2 )
0: OFF, 1: ON
-1000 to 5500 ( Please refer to Table 9-3)
-1000 to 5500 ( Please refer to Table 9-3)
-32767 to 32767
-32767 to 32767
0 to 4 ( Please refer toTable 9-4)
0: OFF, 1: ON
Reserve
Subtract channel
PV shift
PV gain
0 to 6 (0: Subtract OFF, 1 to 6: channel 1 to 6)
-32767 to 32767
0 to 32767 (0.00 to 327.67%)
Reserve
Reserve
Recording mode
Recording type
Range start
Range end
0:Display only, 1:With record
0: Min-Max rec., 1: Point record, 2: Average rec.
-32767 to 32767 ( Please refer to Table 9-5)
-32767 to 32767 ( Please refer to Table 9-5)
Reserve
Reserve
Word
Channel 2 setting
Same allocation as in Channel 1
Word
Channel 3 setting
Same allocation as in Channel 1
Word
Channel 4 setting
Same allocation as in Channel 1
Word
Channel 5 setting
Same allocation as in Channel 1
Word
Channel 6 setting
Same allocation as in Channel 1
Word
Word
Word
Word
Word
Word
Word
Remarks
Reserve
Channel 1
alarm
Alarm
setting
No.1
(16
words)
Alarm
No.2
Alarm type
Set point
0: OFF, 1: H alarm, 2: L alarm
-32767 to 32767 ( Please refer to Table 9-5)
DO relay No.
Alarm type
Set point
0 to 10 (0: None, 1 to 10: DO1 to 10)
0: OFF, 1: H alarm, 2: L alarm
-32767 to 32767 ( Please refer to Table 9-5)
Reserve
- 29 -
Register
No.
41927
41928
41929
41930
41931
41932
41933
41934
41935
41936
41937
to
41953
to
41969
to
41985
to
42001
to
42017
to
42425
42426
42427
42428
42429
42430
42431
42432
42433
42434
42435
42436
42437
42438
to
42497
42498
42499
42500
42501
42502
to
43032
43033
43034
43035
43036
43037
43038
43039
43040
43041
43042
43043
43044
43045
43046
43047
43048
43049
43050
43051
Data
type
Memory contents
Read-out data / Write-in data setting range
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
DO relay No.
Channel 2 alarm setting
0 to 10 (0: None, 1 to 10: DO1 to 10)
Same allocation as in Channel 1
Word
Channel 3 alarm setting
Same allocation as in Channel 1
Word
Channel 4 alarm setting
Same allocation as in Channel 1
Word
Channel 5 alarm setting
Same allocation as in Channel 1
Word
Channel 6 alarm setting
Same allocation as in Channel 1
Reserve
Alarm
No.3
Alarm
No.4
DO relay No.
Alarm type
Set point
0 to 10 (0: None, 1 to 10: DO1 to 10)
0: OFF, 1: H alarm, 2: L alarm
-32767 to 32767 ( Please refer to Table 9-5)
DO relay No.
Alarm type
Set point
0 to 10 (0: None, 1 to 10: DO1 to 10)
0: OFF, 1: H alarm, 2: L alarm
-32767 to 32767 ( Please refer to Table 9-5)
Reserve
Reserve
Word
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Remarks
Reserve
Reserve
Display
setting
1st, 2nd characters
3rd, 4th characters
5th, 6th characters
7th, 8th characters
Display
name
9th, 10th characters
11th, 12th characters
13th, 14th characters
15th, 16th characters
Display No.1
Display No.2
Display No.3
Display No.4
Display No.5
Display No.6
Set Display name (16 characters) by the ASCII code.
0: None, 1 to 6: ch1 to 6
0: None, 1 to 6: ch1 to 6
0: None, 1 to 6: ch1 to 6
0: None, 1 to 6: ch1 to 6
0: None, 1 to 6: ch1 to 6
0: None, 1 to 6: ch1 to 6
Reserve
Reserve
Display
setting2
Trend direction
Channel index
Scale display
0: Vertical, 1: Horizontal
0: CH No.disp., 1: Tag No.disp., 2: Unit Disp.
0: OFF, 1: ON
Display divided
1 to 20
Reserve
Reserve
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Time setting
Time set request
Year
Month
Day
Hour
Minute
1: Time set request.(Automatically clear)
1 to 99 ( 2001 to 2099year)
1 to 12 ( 1 to 12month)
1 to 31 ( 1 to 31day)
0 to 23 ( 0 to 23hour)
0 to 59 ( 0 to 59minute)
Attention:
Don’t change the
time absolutely
during recording.
Reserve
Reserve
Refreshment cycle
0 to 19 ( Please refer to Table 9-6)
LCD lights-out time
File division cycle
Memory full alarm
Record data format
0 to 60 ( 0: ON all the time, 1 to 60: 1 to 60min)
0 to 4 (Please refer to Table 9-7)
0 to 10 (0: None, 1 to 10: DO1 to 10)
0: Ascii, 1: Binary
Reserve
Reserve
Reserve
Reserve
Reserve
Reserve
Battery alarm
0 to 10 (0: None, 1 to 10: DO1 to 10)
- 30 -
Register
No.
43052
43053
43054
43055
43056
43057
43058
43059
43060
43061
43062
43063
43064
to
Data
type
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Memory contents
Read-out data / Write-in data setting range
Data format
File overwrite
Display compression
Select language
Alarm hysteresis
Alarm latch
MODBUS Station No.
0 to 4 (Please refer to Table 9-8)
0:OFF, 1:ON
0:1/1, 1:1/10, 2:1/30, 3:1/60
0:English, 1:French
0 to 10000 ( 0.00 to 100.00%)
0: OFF, 1: ON
0 to 255 ( 0: Communication OFF)
Reserve
Reserve
Configuration password
CF manager password
Record password
Security mode
0 to 9999
0 to 9999
0 to 9999
0:Password, 1:Logon
Reserve
43301 Byte
43302
43303
43304
43305
43306
43307
43308
to
43315
to
43322
to
43329
to
43336
to
43343
to
1st, 2nd characters
Set original unit (7 characters) by the ASCII
code.
Byte
Byte
Byte
Byte
Byte
Byte
Byte
3rd, 4th characters
5th, 6th characters
Original unit 1 setting
7th, characters
Original unit 2 setting
Same allocation as Original unit 1
Byte
Original unit 3 setting
Same allocation as Original unit 1
Byte
Original unit 4 setting
Same allocation as Original unit 1
Byte
Original unit 5 setting
Same allocation as Original unit 1
Byte
Original unit 6 setting
Same allocation as Original unit 1
Byte
Original unit 7 setting
Same allocation as Original unit 1
43350 Byte
Original unit 8 setting
Same allocation as Original unit 1
Byte
Original unit 9 setting
Same allocation as Original unit 1
Byte
Original unit 10 setting
Same allocation as Original unit 1
Byte
Original unit 11 setting
Same allocation as Original unit 1
Byte
Original unit 12 setting
Same allocation as Original unit 1
to
43357
to
43364
to
43371
to
43378
to
43385
to
43496
43497
43498
43499
43500
43501
43502
43503
43504
43505
43506
43507
43508
43509
43510
Remarks
Reserve
Reserve
Reserve
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Reserve
Reserve
DI 1 function
DI 2 function
DI 3 function
DI 4 function
DI 5 function
0 to 5 ( Please refer to Table 9-9)
0 to 5
0 to 5
0 to 5
0 to 5
Reserve
Reserve
Reserve
Reserve
Reserve
RCJ ON/OFF
0: OFF,
1: ON
Reserve
Reserve
Reserve
Front communication
0: OFF,
- 31 -
1: ON
Register
No.
Data
type
Memory contents
Read-out data / Write-in data setting range
43511 Word
Rec.start adjust OFF
0: OFF, 1: ON
43512 Word
to
44001 Byte
1st, 2nd characters
44002 Byte
3rd, 4th characters
44003 Byte
5th, 6th characters
44004 Byte
7th, 8th characters
44005 Byte
9th, 10th characters
44006 Byte
11th, 12th characters
44007 Byte
13th, 14th characters
44008 Byte
15th, 16th characters
PILC data
44009 Byte
17th, 18th characters
44010 Byte
19th, 20th characters
44011 Byte
21th, 22th characters
44012 Byte
23th, 24th characters
44013 Byte
25th, 26th characters
44014 Byte
27th, 28th characters
44015 Byte
29th, 30th characters
44016 Byte
31th, 32th characters
44017 Byte
1st, 2nd characters
44018 Byte
3rd, 4th characters
44019 Byte
5th, 6th characters
44020 Byte
7th, 8th characters
Serial number
44021 Byte
9th, 10th characters
44022 Byte
11th, 12th characters
44023 Byte
13th, 14th characters
44024 Byte
15th, 16th characters
44025 Word
to
Following register No. 45000 to 45500 will not be recorded in the main unit.
45000 Word
Register data request
1: Register data (Automatically clear)
45001 Word
45002 Word
45003 Word
Prohibiting the writing to the memory card
0: Writing permission, 1: Writing prohibition
45004 Bit
Recorder control
( Please refer to Table 9-10)
45005 Word
45006 Word
45007 Word
Alarm latch clear request
1: Alarm latch clear (Automatically clear)
45008 Word
to
The following addreses are recorded in the main unit.
45501 Word
45502 Word
E-mail function
0: OFF, 1. ON
45503 Word
FTP server function
0: OFF, 1: ON
45504 Word
FTP access control
0: OFF, 1: ON
45505 Word
Web server function
0: OFF, 1: ON
45506 Word
45507 Word
45508 Word
MODBUS TCP/IP function
0: OFF, 1. ON
45509 Word
IP address
1st number
0 to 255
45510 Word
2nd number
0 to 255
45511 Word
3rd number
0 to 255
45512 Word
4th number
0 to 255
45513 Word
Subnet mask
1st number
0 to 255
45514 Word
2nd number
0 to 255
45515 Word
3rd number
0 to 255
45516 Word
4th number
0 to 255
45517 Word
Default gateway
1st number
0 to 255
45518 Word
2nd number
0 to 255
45519 Word
3rd number
0 to 255
45520 Word
4th number
0 to 255
45521 Word
SMTP IP address
1st number
0 to 255
45522 Word
2nd number
0 to 255
45523 Word
3rd number
0 to 255
- 32 -
Remarks
Do not write
Do not write
Do not write
Do not write
Do not write
Do not write
Do not write
Do not write
Do not write
Do not write
Do not write
Do not write
Do not write
Do not write
Do not write
Do not write
Do not write
Do not write
Do not write
Do not write
Do not write
Do not write
Do not write
Do not write
Do not write
Do not write
Do not write
Do not write
Reserve
Reserve
Reserve
Reserve
Do not write
Do not write
Reserve
Reserve
Reserve
Register
No.
45524
45525
45526
45527
45528
45529
45530
45531
45532
45533
45534
45535
45536
45537
45538
45539
45540
45541
45542
45543
45544
45545
45546
45547
45548
45549
45550
45551
45552
45553
45554
45555
45556
45557
45558
45559
45560
45561
45562
45563
45564
45565
45566
45567
45568
45569
45570
45571
45572
45573
45574
45575
45576
45577
45578
45579
45580
45581
45582
45583
45584
45585
45586
45587
Data
type
Memory contents
Read-out data / Write-in data setting range
Word
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
4th number
Sender’s mall address 1st, 2nd characters
3rd, 4th characters
5th, 6th characters
7th, 8th characters
9th, 10th characters
11th, 12th characters
13th, 14th characters
15th, 16th characters
17th, 18th characters
19th, 20th characters
21th, 22th characters
23th, 24th characters
25th, 26th characters
27th, 28th characters
29th, 30th characters
31th, 32th characters
33th, 34th characters
35th, 36th characters
37th, 38th characters
39th, 40th characters
41th, 42th characters
43th, 44th characters
45th, 46th characters
47th, 48th characters
49th, 50th characters
51th, 52th characters
53th, 54th characters
55th, 56th characters
57th, 58th characters
59th, 60th characters
61th, 62th characters
63th, 64th characters
Sender’s mail name
1st, 2nd characters
3rd, 4th characters
5th, 6th characters
7th, 8th characters
9th, 10th characters
11th, 12th characters
13th, 14th characters
15th, 16th characters
17th, 18th characters
19th, 20th characters
21th, 22th characters
23th, 24th characters
25th, 26th characters
27th, 28th characters
29th, 30th characters
31th, 32th characters
Receiver’s mail
1st, 2nd characters
address 1 3rd, 4th characters
5th, 6th characters
7th, 8th characters
9th, 10th characters
11th, 12th characters
13th, 14th characters
15th, 16th characters
17th, 18th characters
19th, 20th characters
21th, 22th characters
23th, 24th characters
25th, 26th characters
27th, 28th characters
29th, 30th characters
0 to 255
Set address (64 characters) by the ASCII code.
Set name (32 characters) by the ASCII code.
Set address (64 characters) by the ASCII code.
- 33 -
Remarks
Register
No.
45588
45589
45590
45591
45592
45593
45594
45595
45596
45597
45598
45599
45600
45601
45602
45603
45604
45605
to
45637
to
45669
to
45701
to
45733
to
45765
to
45797
to
45829
to
45901
45902
45903
45904
45905
45906
45907
45908
45909
45910
45911
45912
45913
45914
45915
to
45929
to
45943
to
45957
to
45971
to
45985
to
45999
to
46013
to
Data
type
Memory contents
Read-out data / Write-in data setting range
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
31th, 32th characters
33th, 34th characters
35th, 36th characters
37th, 38th characters
39th, 40th characters
41th, 42th characters
43th, 44th characters
45th, 46th characters
47th, 48th characters
49th, 50th characters
51th, 52th characters
53th, 54th characters
55th, 56th characters
57th, 58th characters
59th, 60th characters
61th, 62th characters
63th, 64th characters
Receiver's mail address 2
Same allocation as Receiver's mail address 1
Byte
Receiver's mail address 3
Same allocation as Receiver's mail address 1
Byte
Receiver's mail address 4
Same allocation as Receiver's mail address 1
Byte
Receiver's mail address 5
Same allocation as Receiver's mail address 1
Byte
Receiver's mail address 6
Same allocation as Receiver's mail address 1
Byte
Receiver's mail address 7
Same allocation as Receiver's mail address 1
Byte
Receiver's mail address 8
Same allocation as Receiver's mail address 1
Word
Remarks
Reserve
Reserve
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Word
Word
Byte
User1
setting
User name
User 2 setting
Same allocation as User 1
Byte
User 3 setting
Same allocation as User 1
Byte
User 4 setting
Same allocation as User 1
Byte
User 5 setting
Same allocation as User 1
Byte
User 6 setting
Same allocation as User 1
Byte
User 7 setting
Same allocation as User 1
Byte
User 8 setting
Same allocation as User 1
Password
User level
1st, 2nd characters
3rd, 4th characters
5th, 6th characters
7th, 8th characters
9th, 10th characters
11th, 12th characters
13th, 14th characters
15th, 16th characters
1st, 2nd characters
3rd, 4th characters
5th, 6th characters
7th, 8th characters
Set name (16 characters) by the ASCII code.
Set name (8 characters) by the ASCII code.
0: guest, 1: administrator
Reserve
Word
Reserve
Reserve
- 34 -
Register
No.
46101
46102
46103
46104
46105
46106
46107
46108
46109
46110
46111
46112
46113
46114
46115
46116
46117
46118
46119
46120
46121
46122
46123
46124
46125
46126
46127
46128
46129
46130
46131
46132
46133
46134
46135
46136
46137
46138
46139
46140
46141
46142
46143
46144
46145
46146
46147
46148
46149
46150
46151
46152
46153
46154
46155
to
46209
to
46263
to
46317
to
46371
to
Data
type
Memory contents
Read-out data / Write-in data setting range
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Word
Word
Word
Word
Word
Word
Byte
E-mail
trigger 1
setting
Set title (32 characters) by the ASCII code.
E-mail trigger 2 setting
Same allocation as E-mail trigger 1
Byte
E-mail trigger 3 setting
Same allocation as E-mail trigger 1
Byte
E-mail trigger 4 setting
Same allocation as E-mail trigger 1
Byte
E-mail trigger 5 setting
Same allocation as E-mail trigger 1
Byte
E-mail trigger 6 setting
Same allocation as E-mail trigger 1
Title
1st, 2nd characters
3rd, 4th characters
5th, 6th characters
7th, 8th characters
9th, 10th characters
11th, 12th characters
13th, 14th characters
15th, 16th characters
17th, 18th characters
19th, 20th characters
21th, 22th characters
23th, 24th characters
25th, 26th characters
27th, 28th characters
29th, 30th characters
31th, 32th characters
Text 1
1st, 2nd characters
3rd, 4th characters
5th, 6th characters
7th, 8th characters
9th, 10th characters
11th, 12th characters
13th, 14th characters
15th, 16th characters
17th, 18th characters
19th, 20th characters
21th, 22th characters
23th, 24th characters
25th, 26th characters
27th, 28th characters
29th, 30th characters
31th, 32th characters
Text 2
1st, 2nd characters
3rd, 4th characters
5th, 6th characters
7th, 8th characters
9th, 10th characters
11th, 12th characters
13th, 14th characters
15th, 16th characters
17th, 18th characters
19th, 20th characters
21th, 22th characters
23th, 24th characters
25th, 26th characters
27th, 28th characters
29th, 30th characters
31th, 32th characters
Trigger timing
Trigger timing argument 1
Trigger timing argument 2
PV value affixation
Receiver's mail address No.
Remarks
Set text 1 (32 characters) by the ASCII code.
Set text 2 (32 characters) by the ASCII code.
(Please refer to Table 9-11)
0: OFF, 1: ON
(Please refer to Table 9-12)
Reserve
- 35 -
Register
No.
46425
to
46479
to
46533
to
46587
to
46641
to
47000
Data
type
Memory contents
Read-out data / Write-in data setting range
Byte
E-mail trigger 7 setting
Same allocation as E-mail trigger 1
Byte
E-mail trigger 8 setting
Same allocation as E-mail trigger 1
Byte
E-mail trigger 9 setting
Same allocation as E-mail trigger 1
Byte
E-mail trigger 10 setting
Same allocation as E-mail trigger 1
Word
Word
Remarks
Reserve
Reserve
Reserve
Final address
Word data [ read-out only ] : Function code [ 04H ]
Register
No.
3XXXX
30001
30002
30003
30004
30005
30006
to
30086
to
30093
30094
30095
30096
30097
30098
30099
30100
30101
30102
30103
30104
30105
30106
to
30130
30131
Data
type
Memory contents
Bit
Bit
Bit
Word
Word
Bit
System information
Word
Memory cord utilization
Bit
Bit
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Channel Alarm
information
Read-out data
Remarks
( Please refer to Table 9-13)
Reserve
DO information
DO1 to 10
( Please refer to Table 9-14)
Reserve
Reserve
DI information
( Please refer to Table 9-15)
Reserve
0 to 1000
( 0.00 to 100.0% , 100.0%=Memory FULL )
Reserve
Word
Word
Channel 1 to 4
Channel 5 to 6
( Please refer to Table 9-16)
Reserve
Reserve
Reserve
Reserve
Reserve
Reserve
Measured value
Channel 1
Channel 2
Channel 3
Channel 4
Channel 5
Channel 6
–32767 to 32767
–32767 to 32767
–32767 to 32767
–32767 to 32767
–32767 to 32767
–32767 to 32767
(
(
(
(
(
(
No decimal point )
No decimal point )
No decimal point )
No decimal point )
No decimal point )
No decimal point )
Reserve
Reserve
Channel status
Channel 1
30132
Word
Channel 2
30133
Word
Channel 3
30134
Word
Channel 4
30135
Word
Channel 5
30136
Word
Channel 6
to
32000
Word
0:Normal, 1:Burnout, 2:Over, 3:Under,
4:Error
0:Normal, 1:Burnout, 2:Over, 3:Under,
4:Error
0:Normal, 1:Burnout, 2:Over, 3:Under,
4:Error
0:Normal, 1:Burnout, 2:Over, 3:Under,
4:Error
0:Normal, 1:Burnout, 2:Over, 3:Under,
4:Error
0:Normal, 1:Burnout, 2:Over, 3:Under,
4:Error
Reserve
Reserve
Final address
Notes)・The area marked (Do not use) is a reserve area. Do not write in there.
- 36 -
9.3 Additional Explanation of Address Map
Table 9-1
Data
0
1
2
3
4
5
6
7
8
9
10
11
12
20
21
22
23
24
30
31
32
33
Input type code
Input type
Skip
K-Type TC
E-Type TC
J-Type TC
T-Type TC
R-Type TC
S-Type TC
B-Type TC
N-Type TC
W-Type TC
L-Type TC
U-Type TC
PN-Type TC
Pt100
JPt100
Ni100
Pt50
Cu50
50mV
500mV
1-5V
0-5V
Skip
Initial decimal point
0
Thermocouple
1
Resistance bulb
1
2
1
DC voltage
3
*When position of decimal point varies with input type, initialize it.
Table 9-2
Data
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
Unit
゚C
゚F
%RH
vol%
t/d
kg/d
g/d
m3/d
l/d
t/h
kg/h
g/h
m3/h
l/h
Data
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
Unit
t/min
kg/min
g/min
m3/min
l/min
t/s
kg/s
g/s
m3/s
l/s
mbar
bar
N/mm2
N/m2
Data
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
Unit code
Unit
mPa
Pa
kPa
MPa
mm
cm
m
ml
L
kl
mm3
cm3
m3
- 37 -
Data
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
Unit
mm2
cm2
m2
g
kg
t
g/cm3
kg/cm3
g/m3
kg/m3
g/l
kg/l
g/ml
Data
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
Unit
ppm
ppmNH3
ppmSO2
ppmH2S
ppmCO
ppmO2
ppmNOx
ppb
pH
mol
%
%H2
%CO2
%He
%Ar
%O2
%NaCl
%CO
Data
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
Unit
mN
N
N・m
J
kJ
mm/s
mm/min
mm/h
m/s
m/min
m/h
rps
rpm
rph
m/s2
rad/s
km/h
Data
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
Unit
us
ms
s
min
h
day
mV
V
kV
uA
mA
A
Hz
dB
W
kW
VA
kVA
Data
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
Unit
Var
kVar
uS/cm
uF
F
C
mH
H
m ohm
ohm
k ohm
M ohm
lx
cd
lm
cd/m2
Data
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
159
160
161
Unit
uSv/h
mSv/h
nGy/h
uGy/h
um
Data
162
163
164
165
166
167
Pa・s
mPa・s
*Unit 1
*Unit 2
*Unit 3
*Unit 4
*Unit 5
*Unit 6
*The unit that was made in Unit 1 to 12: Original unit definition is selected.
Table 9-3
Masuring start, Masuring end setting limit
Input type
Masuring start, Masuring end limit
50mV
–1000 to 5500 (–10.00 to 55.00mV)
500mV
–100 to 5500 (–10.0 to 550.0mV)
1-5V
500 to 5500 (0.500 to 5.500V)
0-5V
–100 to 5500 (–0.100 to 5.500V)
Table 9-4
Decimal point data
0
1
2
3
4
Decimal point code
Setting data
–32767 to 32767
–3276.7 to 3276.7
–327.67 to 327.67
–32.767 to 32.767
–3.2767 to 3.2767
- 38 -
Unit
*Unit 7
*Unit 8
*Unit 9
*Unit 10
*Unit 11
*Unit 12
Table 9-5
Data setting limit
Input type TC,Pt
Input type
K-Type TC
E-Type TC
J-Type TC
T-Type TC
R-Type TC
S-Type TC
B-Type TC
N-Type TC
W-Type TC
L-Type TC
U-Type TC
PN-Type TC
Pt100
JPt100
Ni100
Pt50
Cu50
Input type Volt
Input type
50mV
500mV
1-5V
0-5V
°C (Centigrade)
Range start, Range end
Alarm No.1 to 4 set point
–2300 to 14000 (–230.0 to 1400.0 °C)
–2300 to 8300 (–230.0 to 830.0 °C)
–2300 to 11300 (–230.0 ot 1130.0 °C)
–2300 to 4300 (–230.0 to 430.0 °C)
–300 to 17900 (–30.0 to 1790.0 °C)
–300 to 17900 (–30.0 to 1790.0 °C)
3700 to 17900 (370.0 to 1790.0 °C)
–300 to 13300 (–30.0 to 1330.0 °C)
–300 ot 17900 (–30.0 ot 1790.0 °C)
–2300 to 9300 (–230.0 to 930.0 °C)
–2300 to 4300 (–230.0 to 430.0 °C)
–300 to 13300 (–30.0 to 1330.0 °C)
–2300 to 6300 (–230.0 to 630.0 °C)
–2300 to 6300 (–230.0 to 630.0 °C)
–900 to 2100 (–90.0 to 210.0 °C)
–2300 to 6300 (–230.0 to 630.0 °C)
–800 to 2300 (–80.0 to 230.0 °C)
Scaling OFF
Range start, Range end
Alarm No.1 to 4 set point
–1000 to 5500 (–10.00 to 55.00mV)
–100 to 5500 (–10.0 to 550.0mV)
500 to 5500 (0.500 to 5.500V)
–100 to 5500 (–0.100 to 5.500V)
Table 9-6
Data
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
゚ F (Fahrenheit)
Range start, Range end
Alarm No.1 to 4 set point
–3820 to 25520 (–382.0 to 2552.0 °F)
–3820 to 15260 (–382.0 to 1526.0 °F)
–3820 to 20660 (–382.0 to 2066.0 °F)
–3820 to 8060 (–382.0 to 806.0 °F)
–220 to 32540 (–22.0 to 3254.0 °F)
–220 to 32540 (–22.0 to 3254.0 °F)
6980 to 32540 (698.0 to 3254.0 °F)
–220 to 24260 (–22.0 to 2426.0 °F)
–220 to 32540 (–22.0 to 3254.0 °F)
–3820 to 17060 (–382.0 to 1706.0 °F)
–3820 to 8060 (–382.0 to 806.0 °F)
–220 to 24260 (–22.0 to 2426.0 °F)
–3820 to 11660 (–382.0 to 1166.0 °F)
–3820 to 11660 (–382.0 to 1166.0 °F)
–1300 to 4100 (–130.0 to 410.0 °F)
–3820 to 11660 (–382.0 to 1166.0 °F)
–3820 to 11660 (–382.0 to 1166.0 °F)
Scaling ON
Range start, Range end
Alarm No.1 to 4 set point
Refreshment cycle code
Refreshment cycle
1sec
2sec
3sec
5sec
10sec
20sec
30sec
1min
2min
3min
5min
10min
20min
30min
1hour
2hour
3hour
4hour
6hour
12our
- 39 -
–32767 to 32767
(Please refer to Table 9-4)
Table 9-7
File division cycle code
Data
File division cycle
0
1
2
3
4
No division
1 hour
1 day
1 week
1 month
Table 9-8
Date format code
Data
Data format
0
1
2
3
4
2005/10/28
28/10/2005
28- Oct-05
10/28/2005
Oct-28-05
Table 9-9
Data
0
1
2
3
4
5
DI function
Function invalid
Rec start/Rec stop
Function invalid
Function invalid
Function invalid
LCD ON
Table 9-10
Bit
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
DI function code
Contents
Record start/stop
Reserve
Reserve
LCD Lighting
Reserve
Reserve
Reserve
Reserve
Reserve
Reserve
Reserve
Reserve
Reserve
Reserve
Reserve
Reserve
Recorder control
Write data
0:Record stop, 1:Record start
0: No change, 1:LCD Lighting
- 40 -
Table 9-11
Trigger timing data
Trigger timing argument 1 and 2 have a significant difference according to the contents of Trigger
timing.
Data
0
1
2
3
Trigger timing
None
DI ON
DI OFF
Alarm ON
Alarm OFF
4
5
Warning
6
Timer cycle
Argument 1
None
0 to 4 ( DI1 to 5)
0 to 4 ( DI1 to 5)
0 to 5 ( channel 1 to 6 )
Argument 2
None
None
None
0 to 3 ( Alarm No.1 to 4 )
0 to 5 ( channel 1 to 6 )
0 to 3
0: Alarm ON (All ch)
1: All warning
2: No battery
3: CF full
0 to 6
0: 1hour
1: 2hour
2: 3hour
3: 4hour
4: 6hour
5: 12hour
6: 1day
0 to 3 ( Alarm No.1 to 4 )
None
Table 9-12
Bit
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
Receiver's mail address No.
Contents
E-mail address No.1
E-mail address No.2
E-mail address No.3
E-mail address No.4
E-mail address No.5
E-mail address No.6
E-mail address No.7
E-mail address No.8
Reserve
Reserve
Reserve
Reserve
Reserve
Reserve
Reserve
Reserve
Table 9-13
Bit
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
0 to 23
(Base time 0:00 to 23:00 )
Data
0: No receive, 1: Address to receive
0: No receive, 1: Address to receive
0: No receive, 1: Address to receive
0: No receive, 1: Address to receive
0: No receive, 1: Address to receive
0: No receive, 1: Address to receive
0: No receive, 1: Address to receive
0: No receive, 1: Address to receive
System information
Contents
Recording status
CF capacity status
Channel alarming status
Reserve
Reserve
LCD state
Reserve
Reserve
Battery condition
Reserve
CF information
Reserve
Reserve
Reserve
Reserve
Reserve
- 41 -
Data
0: Stop, 1: Recording
0: capacity available, 1: No capacity
0: No, 1: Yes
0: ON, 1: OFF
0: Provided, 1: Not provided
0: No, 1: Yes
Table 9-14
Bit
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
Contents
DO 1 information
DO 2 information
DO 3 information
DO 4 information
DO 5 information
DO 6 information
DO 7 information
DO 8 information
DO 9 information
DO 10 information
Reserve
Reserve
Reserve
Reserve
Reserve
Reserve
Table 9-15
Bit
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
Data
0: ON, 1: OFF
0: ON, 1: OFF
0: ON, 1: OFF
0: ON, 1: OFF
0: ON, 1: OFF
0: ON, 1: OFF
0: ON, 1: OFF
0: ON, 1: OFF
0: ON, 1: OFF
0: ON, 1: OFF
DI information
Contents
DI 1 information
DI 2 information
DI 3 information
DI 4 information
DI 5 information
Reserve
Reserve
Reserve
Reserve
Reserve
Reserve
Reserve
Reserve
Reserve
Reserve
Reserve
Table 9-16
Bit
DO information
Data
0: ON, 1: OFF
0: ON, 1: OFF
0: ON, 1: OFF
0: ON, 1: OFF
0: ON, 1: OFF
Channel Alarm information
Address 30093
Channel 1
Alarm No. 1
Alarm No. 2
Alarm No. 3
Alarm No. 4
Channel 2
Alarm No. 1
Alarm No. 2
Alarm No. 3
Alarm No. 4
Channel 3
Alarm No. 1
Alarm No. 2
Alarm No. 3
Alarm No. 4
Channel 4
Alarm No. 1
Alarm No. 2
Alarm No. 3
Alarm No. 4
- 42 -
Address 30094
Alarm No. 1
Alarm No. 2
Alarm No. 3
Alarm No. 4
Channel 6
Alarm No. 1
Alarm No. 2
Alarm No. 3
Alarm No. 4
Reserve
Reserve
Reserve
Reserve
Reserve
Reserve
Reserve
Reserve
Channel 5
10. TROUBLESHOOTING
If the communication is unavailable, check the following items.
Case of Ethernet communication (common to FTP, web, E-mail and MODBUS TCP/IP)
… Whether the power is turned ON again after communication setup change.
… Whether all devices related to communication are turned ON.
… Whether connections are correct.
… Whether the number of connected instruments and connection distance are as specified.
… Whether conditions for communication are correct.
… IP address
… Subnet mask
… Default gateway
… Whether the 12th digit of type code of this Recorder is E?
(PHF ……………-………E…-…)
Case of FTP server function
… Whether the user name, the password, and the user level are correct?
… Whether a compact flash has been inserted to the main unit.
Case of E-mail send function
… Whether conditions for communication are correct.
… SMTP address
… Sender’s mail address
… Receiver’s mail address
… Whether E-mail send conditions are correct.
Case of MODBUS TCP/IP communication function
… Whether the station No. designated as send destination by the master station coincides with the station No. of
this Recorder been connected.
… Whether the station No. of this Recorder is set other than 0.
If it is 0, the communication function does not work.
- 43 -
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